Focusing mechanism for a vision detector

Abstract

A machine vision image acquisition system is provided with a housing or enclosure that protects the acquisition system components from an industrial environment. The machine vision image acquisition system has a focusing mechanism that can be actuated externally to the housing. The focusing mechanism uses a gear drive to transmit externally actuated focus adjustments to the optical components of the acquisition system.

Description

BACKGROUND OF THE INVENTION [0001] 1. Field of the Invention [0002] This invention relates to industrial machine vision inspection of objects, and more particularly to a focus adjustment mechanism that permits focus adjustment of optical components of a vision detector. [0003] 2. Description of the Related Art [0004] Industrial manufacturing relies on automatic inspection of objects being manufactured. One form of automatic inspection that has been in common use for decades is based on optoelectronic technologies that use electromagnetic energy, usually infrared or visible light, photoelectric sensors, and some form of electronic decision making. [0005] One well-known form of optoelectronic automatic inspection uses an arrangement of photodetectors. A typical photodetector has a light source and a single photoelectric sensor that responds to the intensity of light that is reflected by a point on the surface of an object, or transmitted along a path that an object may cross. A user-a...

AI Technical Summary

Benefits of technology

[0046] This invention provides a focusing mechanism for a vision detector or machine vision system that provides the capability for remotely adjusting focus without disturbing a production environment. In one aspect of the invention, a machine vision system or vision detector is contained in a housing, with a window or protective transparent cover exposing the lens and imager. The imager and lens and window aligned on an optical axis, i.e., in optical cooperation. A lens adjustment gear or drive member is attached to the focus adjustment ring of the lens with a mating drive gear coupled to a focus adjustment shaft that protruded through the system housing. Rotation of the focus adjustment shaft externally from the housing causes a focus adjustment to be made without interfering with illumination or the physical installation of the unit.

[0047] An aspect of the invention provides for a moisture-sealed enclosure so that a focus adjustment can be made without breaking the effectiveness of the seal.

[0048] In another aspect of the invention, focus adjustment can be performed remotely from the system with the use of a torque-transmitting cable engaged at one end into the focus adjusting shaft of the system. The torque-transmitting cable, such as a sheathed cable, can be actuated remotely to cause rotation of the focus adjusting shaft to adjust the focus setting of the lens. This aspect of the invention permits focus adjustment of the system without having to be in close physical proximity to the unit, so that a user can be safely located with respect to the production environment.

Problems solved by technology

Automatic inspection using photodetectors can be difficult since simple sensing of light intensity reflected from a point on the object is often insufficient for inspection.

Further, it may be hard to arrange the photodetectors when many points on an object need to be inspected.

Interference may be due to space limitations, crosstalk from the light sources, or other factors.

The cost of performing a line changeover, and the risk of human error involved, often offset the low cost and simplicity of the photodetectors.

This requirement may add additional cost and complexity that can offset the low cost and simplicity of the photodetectors.

Machine vision systems have disadvantages compared to an arrangement of photodetectors, including: They are relatively expensive, often costing ten times more than an arrangement of photodetectors.

They can be difficult to set up, often requiring people with specialized engineering training.

Furthermore, the decision time tends to vary significantly and unpredictably from object to object.

Machine vision systems have limitations that arise because they make decisions based on a single image of each object, located in a single position in the field of view (each object may be located in a different and unpredictable position, but for each object there is only one such position on which a decision is based).

The use of only a single perspective often leads to incorrect decisions.

It has long been observed, for example, that a change in perspective of as little as a single pixel can in some cases change an incorrect decision to a correct one.

Also, the limitations of machine vision systems arise in part because they operate too slowly to capture and analyze multiple perspectives of objects in motion, and too slowly to react to events happening in the field of view.

However, if a focus adjustment is necessary, access to the vision detector for such an adjustment may require production line interruption.

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